FACTORS INFLUENCING THE EFFLUX OF [3H]GAMMAAMINOBUTYRIC ACID FROM SATELLITE GLIAL CELLS IN RAT SENSORY GANGLIA

The spontaneous efflux of [³H]GABA from the satellite glial cells of rat dorsal root ganglia and the efflux evoked by 64 mM-K⁺ were studied in the presence of 10^-5M-amino-oxyacetic acid and found not to be affected by 10^-4M-D 600 or by elevated (9.6mM) Ca²⁺ in the absence of Mg²⁺. [³H]GABA efflux was increased by replacing sodium ions in the washing medium by choline ions and 64 mM-K⁺ failed to increase the efflux further. The drugs veratridine (10^-6 and 10^-4M) and batrachotoxin (10^-8 and 10^-6 M) failed to alter the spontaneous efflux of [³H]GABA from the glial cells. A variety of compounds, including amino acids, a GABA analogue and a GABA antagonist were tested for their ability to affect [³H]GABA efflux. The results indicated that compounds which inhibit GABA uptake into glial cells were also able to stimulate [³H]GABA efflux from these cells. The results are discussed with reference to possible mechanisms involved in the release of GABA from glial cells.     

UPTAKE OF [14C]NIPECOTIC ACID INTO RAT DORSAL ROOT GANGLIA

Abstract— [¹⁴C]Nipecotic acid was accumulated in isolated desheathed rat dorsal root ganglia by a saturable process with K _m= 48.8 μ m and V _max= 2.2 nmol/g/min. The concentration of l -2.4-diamino-butyric acid required to inhibit the uptake of nipecotic acid by 50% was three times the concentration of β-alanine required to do the same. Light microscopic autoradiography indicated that the sites of uptake of [¹⁴C]nipecotic acid were principally confined to satellite glial cells. It is concluded that nipecotic acid is transported by the GABA uptake system in glia but that it has less affinity for this system than GABA.     

POTASSIUM-INDUCED RELEASE OF [3H]GABA AND OF [3H]NORADRENALINE FROM NORMAL AND RESERPINIZED RAT BRAIN CORTEX SLICES. DIFFERENCES IN CALCIUMDEPENDENCY, AND IN SENSITIVITY TO POTASSIUM IONS

The release of [³H]GABA induced by elevated extracellular potassium (K)_o, from thin rat brain cortex slices, has been compared with that of [³H]noradrenaline ([³H]NA), released by the same procedures, both from normal slices, and from slices pre-treated with reserpine and nialamide, [³H]NA being predominantly a vesicular component in the former situation, and a soluble substance in the latter one. 46 mM-(K)_o released considerably more [³H]NA from normal than from drug-treated slices, while the release of GABA was about two thirds of the latter. When 4min ‘pulses’ of increasing concentrations of potassium were applied, it was observed that the release of GABA and of [³H]NA from drug-treated slices increased in proportion to (K)_o, up to 36-46 mM and then declined considerably with higher (K)_o. The dependency of potassium-induced release on the concentration of calcium in the medium, indicated that release of [³H]NA from normal slices was proportional to calcium up to 1.5-2 mM, while that of [³H]NA from drug-treated slices increased up to 0.5 mM-Calcium, and then declined with higher concentrations. GABA release also increased up to 0.5 mM-calcium, but no further changes were observed at higher concentrations. The calcium antagonist D-600 inhibited high (K)_o-induced release of [³H]NA from normal slices to a greater extent than that of [³H]GABA or of [³H]NA from drug-treated slices. These results, in which elevated (K)_o-induced release of [³H]GABA resembles considerably that of soluble NA, but differs from that of NA present in synaptic vesicles, suggest that release of [³H]GABA also occurs from the soluble cytoplasmic compartment, and that the partial calcium requirement that is found is unrelated to that of transmitter secretion. These findings are also a further indication of the lack of specificity of elevated (K)_o as a stimulus for inducing transmitter secretions.     

ON THE RELATIONSHIP BETWEEN [3H]CHOLINE UPTAKE ACTIVATION AND [3H]ACETYLCHOLINE RELEASE

The depolarization-induced, calcium-dependent release of [³H]ACh from hippocampal synaptosomes was studied in a superfusion system. Release increased, with increasing depolarization. Barium and strontium effectively substituted for calcium during the depolarization, but magnesium inhibited the release. Releasable [³H]ACh is derived from the sodium-dependent component of the [³H]choline uptake which points out the physiologic importance of sodium-dependent choline transport. It is concluded that [³H]ACh release in this system has the same properties as neurotransmitter release in many other systems. Previous studies have shown that treatments which alter the activity of cholinergic neurons in vivo result in parallel changes in sodium-dependent choline uptake in vitro. When synaptosomes were utilized from animals treated to reduce cholinergic activity, there was a reduced release following the reduced uptake. Conversely, when synaptosomes were taken from animals treated to increase sodium-dependent choline uptake, there was an increase in the release. It is concluded that the changes in sodium-dependent choline uptake in vitro consequent to changes in neuronal activity in vivo result in parallel changes in releasable ACh. A comparison was made between the effect of a number of ions and agents on release and their effect on the in vitro, depolarization-induced activation of sodium-dependent choline uptake. Barium and strontium, ions which substitute for calcium in the release process, support the in vitro activation of uptake. Vinblastine and Bay a 1040, compounds which block release, prevented the in vitro activation of sodium-dependent choline uptake. However, magnesium blocked release in a dose-dependent manner, but did not block the activation of uptake in vitro. Rather, magnesium substituted for calcium and supported the activation of uptake in a dose-dependent fashion. It is concluded that acetylcholine release is not necessary for the activation of choline uptake.     

THE SELECTIVE NEURONAL UPTAKE AND RELEASE OF [3H]DL-2,4-DIAMINOBUTYRIC ACID BY RAT CEREBRAL CORTEX

Abstract— At 25°C the accumulation of [³H] dl -2,4-diaminobutyric acid (DABA) into small rat cortical slices was linear with time and a tissue: medium ratio of 35:1 was attained after 60 min. At 37°C the uptake was no longer linear and the tissue: medium ratio at 60 min was 66:1. Uptake was unaffected by the addition of 10 μ m -AOAA and dependent on the presence of Na⁺ in the incubation media. The uptake was shown to have a high affinity component with a K _m of 20.7 μ m and a V _max of 28.6 nmol/g/min. IC50's for the inhibition of [³H]DABA uptake by dl -DABA, l -DABA and GABA were 80, 40 and 17 μ m respectively. Two m m β -alanine, however, caused less than 13% inhibition of [³H]DABA uptake. Electron microscopic autoradiographs showed the [³H]DABA to be accumulated by 22% of the identifiable nerve terminals and, after 14 days exposure, the density of silver grains over nerve terminals was 36–38 times higher than that over the rest of the electron micrograph. On the other hand, [³H]DABA was not taken up into rat sensory ganglia and light level autoradiography showed the small amount of [³H]DABA accumulated by the ganglia to be evenly distributed throughout the tissue. Both electrical stimulation for 30 s and exposure of the tissue to a medium containing 47 m m -K⁺ for 2 min caused a marked increase in the efflux of [³H]DABA from the tissue. Both these effects were abolished by a reduction in Ca²⁺ concentration and an increase in the Mg²⁺ concentration of the superfusing medium. These results suggest that l -DABA acts as a 'false transmitter' for the neuronal uptake, storage and release of GABA.     

FACTORS AFFECTING THE SPONTANEOUS RELEASE OF [3H] γ-AMINOBUTYRIC ACID FROM THE FROG RETINA IN VITRO

Abstract— The spontaneous efflux of [³H]GABA and its metabolites from the frog retina has been studied. The efflux of radioactivity was multiphasic in the presence or absence of amino-oxyacetic acid (AOAA), an inhibitor of GABA metabolism, and was not affected by light or dark adaptation.
Strong retention of radioactivity was evident in the presence of AOAA, about 90% of the label remaining in the tissue after 4 h superfusion. Under these conditions, increases in the rate of release of radioactivity were evoked by electrical stimulation, 40 m m -potassium. unlabelled GABA (5 m m ), ouabain (5 × 10⁻⁵ m ) and the absence of calcium. The amount of [³H]GABA released by electrical stimulation was not markedly calcium dependent, whereas the response to 40 m m -potassium was reduced by 96% in the absence of calcium.     

ELECTRICALLY INDUCED RELEASE OF [3H]GABA FROM NEOCORTICAL THIN SLICES. EFFECTS OF STIMULUS WAVEFORM AND OF AMINO-OXYACETIC ACID

The efflux of [³H]GABA or [¹⁴C]GABA from superfused neocortical thin slices, held on quick transfer electrodes, has been compared with that of the non-transmitter amino acid model [¹⁴C]α- amino-isobutyrate (AIB), and, to a lesser extent, with [³H]norepinephrine. Electrical stimulation of the slices with sine-wave current (50 Hz); rectangular, biphasic pulses, (80/s, 3 ms); or rectangular, monophasic pulses (100/s, 5 ms), was unable to release GABA at stimulating potentials that are able to release known transmitter substances. Release of GABA and AIB was only seen with higher applied potentials, when also non-transmitter amino acids were released. It was also found that amino-oxyacetic acid(10^-5 M and 5 × 10^-5 M) increased the excitability of the slices, and allowed the release of both GABA and AIB to occur with weaker stimuli. This effect was independent of extracellular calcium.     

KINETICS OF [3H]ACETYLCHOLINE SYNTHESIS AND RELEASE IN PRIMARY CELL CULTURES FROM MAMMALIAN CNS

Abstract— The present study was undertaken to characterize the cholinergic system of primary cell cultures of mouse and rat CNS.
In confirmation of previous reports, primary cultures were found to contain choline acetyltransferase (ChAc). Furthermore they contain acetylcholine (ACh) as measured by two different bioassays. They also synthesize [³H]ACh from [³H]Choline offered to the cultures.
The formation of [³H]ACh is inhibited in the presence of hemicholinium-3 (10⁻⁶ m ) to 50% or ouabain (10⁻³ m ) to 20% of the values found in untreated cultures. Omission of Na ⁺ from the incubation solution also diminishes the [³H]ACh formation of the cells.
[³H]ACh is released upon depolarisation by K⁺ ions in a concentration dependent manner. The release can be prevented by lack of Ca²⁺ ions in the incubation solution.     

EFFECTS OF AMINO-OXYACETIC ACID ON [3H]GABA UPTAKE BY RAT BRAIN SLICES

Abstract— The effect of amino-oxyacetic acid on the uptake of [³H]GABA by rat brain slices was studied. When added simultaneously with [³H]GABA, amino-oxyacetic acid had no significant effect on [³H]GABA uptake. However, preincubation of brain slices with amino-oxyacetic acid prior to addition of [³H]GABA produced inhibition of uptake, which increased with longer duration of preincubation. The inhibitory effect of amino-oxyacetic acid was maximal at 2 mM concentration and concentrations sufficient to inhibit significantly GABA:glutamate transaminase (10^--⁶ M) had no effect on [³H]GABA uptake. D-Cycloserine and β-hydrazino-propionic acid also inhibited [³H]GABA uptake, but the amounts required were considerably in excess of those needed to inhibit GABA:glutamate transaminase. 4-Deoxypyridoxine inhibited [³H]GABA uptake, whether given in vivo or in vitro , and the inhibitory effect of amino-oxyacetic acid was reversed with pyridoxine. GABA transport appears to be dependent on pyridoxal phosphate and interference with this function of the vitamin is suggested as the basis for the inhibitory effect of amino-oxyacetic acid on [³H]GABA uptake.     

SYNTHESIS OF RADIOACTIVE ACETYLCHOLINE FROM [3H]CHOLINE AND ITS RELEASE FROM CEREBRAL CORTEX SLICES IN VITRO

Abstract— Guinea pig cerebral cortex slices were incubated for 60 min in a medium containing [³H]choline with or without the addition of 33 mM-KCl for the last 30 min. KC1 caused the release into the medium of large amounts of both bioassayable and radioactive ACh, while at the same time their concentrations in the tissue decreased. The specific activity (d.p.m./pmol) of the ACh released by KC1 was greater than that released in control incubations, indicating that it comes from a newly synthesized, more radioactive store. The amounts of [³H]choline, [³H]ACh and the specific activity of tissue acetylcholine reached a plateau in the tissue 30 min after the addition of isotope. However isotopic equilibrium was not achieved because the specific activity of the ACh released, with or without KC1 in the subsequent 30 min, was less than the specific activity of the ACh remaining in the tissue. This implies the existence of a pool of ACh in the tissue which is turning over very slowly or is being synthesized from a less radioactive pool of choline. This pool of ACh does not contribute substantially to that released by KC1. Levorphanol at 10⁻³ M, as well as the analgesically inactive stereoisomer, dextrorphan, blocked the KCl-stimulated release of both bioassayable and radioactive ACh. These drugs demonstrate the coupling of synthesis and release of ACh in cerebral cortex slices.     

STUDY OF RNA IN SUBCELLULAR FRACTIONS FROM RAT BRAIN: SIMULTANEOUS INCORPORATION OF [14C]URIDINE AND [3H]METHYL-l-METHIONINE

Abstract— By using a combination of subcutaneous and intraventricular injections of [¹⁴C]uridine and [³H]methyl- l -methionine we have obtained maximum incorporation in about 40 min of both radioactive precursors into nuclear RNA from rat brain. In this nuclear fraction we found at least two different types of RNA that were rapidly labelled. One of them incorporated both [¹⁴C]uridine and [³H]methyl groups and seemed to correspond to species of rRNA and their precursors. The other RNA fraction was less methylated or non-methylated and exhibited sedimentation coefficients distributed along a continuous 8–30 % sucrose density gradient. At least part of the latter type of RNA very probably was mRNA, but much of it must conespond to a different RNA similar to that recently described in HeLa cells by P enman , V esco and P enman (1968).
We also found that labelled 185 and 285 rRNA components began leaving the nucleus for the cytoplasm within 24 to 33 min after the radioactive precursors had been injected, and, in the cytoplasmic fraction, the patterns of incorporation for [¹⁴C]uridine and [³H]-methyl groups were similar for the 18S and 28S rRNA components. We estimate that in this fraction of rat brain the 18S rRNA component was 1·4 times more methylated than the 28S component. We also detected a lower sedimentation coefficient for the non- or slightly methylated, species of soluble RNA found in the cytoplasmic fraction.     

THE UPTAKE AND RELEASE OF [3H]DOPAMINE IN THE GOLDFISH RETINA

Abstract— The uptake and release of [³H]dopamine was studied in the goldfish retina with the following results: (1) when goldfish retinas were incubated with 2 ± 10^-7m -[³H]dopamine for less than 20min and processed for autoradiography. most of the label was associated with dopaminergic terminals that contact certain horizontal cells. Biochemical analysis showed that > 93% of this label was [³H]-dopamine. (2) [³H]dopamine uptake saturated with increasing dopamine concentration and followed Michaelis-Menten kinetics. This uptake could be explained by a single ‘high-affinity’ mechanism with a K_m of 2.61 ± 0.41 ± 10^-7m and a V_max of 66 ± 12 ± 10^-12 mol/min/mg protein. (3) [³H]dopamine uptake was temperature-dependent with a temperature coefficient of 1.7 and an energy of activation of 11.4 kcal/mol. (4) The initial rate of uptake was unaffected by the absence of Ca²⁺ or the presence of Co²⁺; however, more than 85, uptake was blocked in the absence of external Na⁺. (5) Neither 1 mm -cyanide nor 5 mm -iodoacetate blocked more than 30% of uptake individually; however, in combination > 70% of uptake was blocked. (6) Centrally acting drugs benztropine and diphenylpyraline inhibited at least 60–70% of [³H]dopamine uptake. (7) [³H]dopamine in the retina could be released by increasing the external K⁺ concentration. This release was Ca²⁺ -dependent and was blocked by 10mm -Co²⁺ or 2Omm -Mg²⁺. The amount of [³H]dopamine released was not affected by the presence of benztropine, diphenylpyraline or fluphenazine in the incubation medium. These studies add further support for dopamine as a neurotransmitter used by interplexiform cells of the goldfish retina.     

CHEMICAL SYNTHESIS OF [3H]CEREBROSIDE [35S]SULFATE AND ITS IN VIVO METABOLISM IN RAT BRAIN

—Double-labeled sulfatide containing [3-³H]lignoceric acid and [³⁵S]sulfate was synthesized and injected intracerebrally into 28-day-old rats. The ³H-labeled sulfatide was synthesized by condensing (RS)-[3-³H]lignoceroyl chloride with lysosulfatide which had been obtained by saponification of sulfatide. The ³⁵S-labeled sulfatide was synthesized by using [³⁵S]sulfuric acid for sulfating 2′, 4′, 6′-tri-benzoyl-galactosyl N-fatty acyl, N-benzoyl-3-0-benzoyl-sphingosine, which had been obtained by per-benzoylation followed by solvolysis of calf brain nonhydroxycerebrosides. The perbenzoylated [³⁵S]sul-fatide was then subjected to mild alkaline saponification. Eight hours following the injection, the brain lipids contained various radioactive sphingolipids in addition to sulfatides. Fourteen per cent of the injected ³H was recovered in total lipids, and 26% of this was found in sulfatide. Nonhydroxy- and hydroxyceramides, nonhydroxy- and hydroxycerebrosides, and polar lipids contained 7, 1, 8, 3, and 22 per cent of the ³H found in total lipids, respectively. On the other hand, only 6% of the ³⁵S injected was recovered in total lipids; 63% of this was found in sulfatide, 5% in a mixture of seminolipid and cholesterol sulfate and 10% in a water-soluble material.     

SUBCELLULAR DISTRIBUTION OF ENDOGENOUS AND [3H] γ-AMINOBUTYRIC ACID IN RAT CEREBRAL CORTEX

Abstract— Slices of rat cerebral cortex were labelled by incubation with [³H]γ-aminobutyric acid (GABA) and homogenized in isotonic sucrose. The subcellular distributions of endogenous GAB A, [³H]GABA and glutamate decarboxylase (GAD) were studied by density gradient centrifugation. The subcellular distributions of the labelled and endogenous amino acid were remarkably similar, indicating that [³H]GABA is taken up into the endogenous GABA pool. About 40 per cent of both endogenous and [³H]GABA were recovered in particles which were tentatively identified as synaptosomes from their equilibrium density and sensitivity to osmotic shock. In slices labelled with [³H]GABA and [¹⁴C]α-aminoisobutyric (AIB) acid, significantly more [³H]GABA was recovered in paniculate fractions than [¹⁴C]AIB. About 80 per cent of the enzyme GAD was also recovered in the same particle fractions which contained [³H]GABA and endogenous GABA. Evidence is presented which suggests that a loss of particle-bound GABA occurs during subcellular fractionation procedures.     

ACTIVE UPTAKE OF [3H]5-HT BY SYNAPTIC VESICLES FROM RAT BRAIN

The question of whether synaptic vesicles accumulate [³H]5-HT by an active process was investigated in a mixed population of vesiclcs from whole rat brain. The temperature dependence and the effect of metabolic inhibitors were studied in synaptosomal suspensions and vesicular fractions. Arrhenius plots for synaptosomes differed from those for vesicles as did the temperature coefficients for these two fractions. For synaptosomes the Q₁₀ was 7 and for vesicles 1.6. However, if ATP was added to the incubation, the temperature dependence of vesicular amine accumulation became manifest; the Arrhenius plot resembled that of synaptosomes and the Q₁₀ was greater than 20 indicating strong temperature dependence. In the presence of ATP, vesicular uptake was stimulated approx 8-fold. Ouabain, dinitrophenol and NEM inhibited synaptosomal uptake but failed to affect [³H]5-HT accumulation by vesicles in the absence of ATP. When ATP was added, vesicular uptake was also blocked by NEM but was unaffected by either ouabain or DNP. Total observed uptake consisted of two components, one ATP-dependent and one nonsaturable and ATP-independent. The active process had a K_m= 1.25 × 10^?7 M and could be completely blocked by either 10^?3 M or 10^?7 M-reserpine. Active vesicular [³H]5-HT uptake was magnesium dependent and was inhibited by sodium and potassium. Cation effects on uptake were specific and could not be accounted for by either changes in osmotic pressure or ionic strength. It was concluded that synaptic vesicles from whole rat brain accumulate [³H]5-HT by an active process.     

SUBCELLULAR LOCALIZATION OF NEWLY-FORMED [3H]ACETYLCHOLINE IN RAT CEREBRAL CORTEX IN VITRO

—Slices from rat brain cortex were incubated for either 5 or 60 min in a medium containing [³H]choline and 4·7 or 25 mm -KCl. Bioassayable ACh and labelled ACh were determined in the incubation medium, in the total tissue homogenate and in subcellular fractions. Raising the KCl concentration from 4·7 to 25 mm stimulated the release and synthesis of total and of labelled ACh. In medium containing 25 mm -KCl the amounts of ACh decreased in the tissue and in the nerve ending cytoplasm, but remained constant in the synaptic vesicles. After incubation in 25 mm -KCl medium the ACh in the vesicles was labelled to the same extent as the cytoplasmic ACh but after incubation in 4·7 mm -KCl medium vesicular ACh was labelled less than cytoplasmic ACh. During 5 min incubation in medium containing 25 mm -KCl the ratio of labelled to total ACh was much higher in the medium than in the homogenate, the vesicles or the cytoplasm. During the last 15 min of the 60 min incubation the ratio of labelled to total ACh in the medium was still higher than that in the tissue fractions, but less so than during the 5 min incubation. It is concluded that the vesicular and cytoplasmic fractions are not identical with the store in the tissue from which newly-synthesized ACh is preferentially released.     

ESTIMATION OF NORADRENALINE AND ITS MAJOR METABOLITES SYNTHESIZED FROM [3H]TYROSINE IN THE RAT BRAIN

Abstract— A new procedure is described for the estimation of [³H]noradrenaline (NA) and its major metabolites free and conjugated 3-methoxy-4-hydroxyphenylglycol (MOPEG) and free and conjugated 3,4-dihydroxyphenylglycol (DOPEGI in the rat brain. The procedure involves adsorption on to alumina, cation exchange chromatography. enzymatic hydrolysis of conjugates and thin-layer-chromatography after intraventricular (IVT) or intravenous injection of [³H]tyrosine. In a time-course study the formation and accumulation of the metabolites have been measured from 15min to 23h after IVT injection of [³H]tyrosine. [³H]MOPEG and [³H]DOPEG were found in almost equal amounts during the synthesis phase of [³H]NA as well as during the storage and disappearance phase of [³H]NA. The maximum levels of conjugated [³H]MOPEG and conjugated [³H]DOPEG were found 2 h after IVT [³H]tyrosine. At this time interval the levels of free [³H]MOPEG and free [³H]DOPEG amounted to 25% and 11%, respectively of the corresponding conjugates. Increasing doses of IVT injected [³H]tyrosine (10-90 °Ci) revealed that the accumulation of [³H]NA and metabolites was linear up to about 50 °Ci. Following intravenous instead of IVT injection of [³H]tyrosine. much higher doses (325 °Ci) were needed to obtain measurable amounts of total [³H]MOPEG and [³H]DOPEG-SO₄ in the rat brain. The formation of labelled NA metabolites from [³H]NA in the rat brain in vim measured as total [³H]MOPEG and [³H]DOPEG-SO₄ was influenced by drugs affecting [³H]NA synthesis, release and metabolism. Synthesis inhibition with a-methyltyrosine (250mg-kg^?1) or FLA-63 (30mg-kg^?1) and inhibition of monoamine oxidase with pargyline (75mg-kg^?1) or clorgyline (2mg-kg^?1) strongly decreased the accumulation of total [³H]MOPEG and [³H]DOPEG-SO₄. Noradrenaline receptor blockade with phenoxybenzamine (20mg-kg^?1) increased both total [³H]MOPEG and [³H]DOPEG-SO₄ to about 160% of the control values. NA release and uptake inhibition induced by d-amphetamine (10mg-k^?1) or phenylethylamine (two doses of 80mg-kg^?1) decrease strongly the levels of [³H]NA and [³H]DOPEG-SO₄. whereas total [³H]MOPEG was only very slightly decreased or even increased as compared to controls.     

THE EFFECT OF DELTA-AMINOLAEVULINIC ACID ON THE UPTAKE AND EFFLUX OF [3H]GABA IN RAT BRAIN SYNAPTOSOMES

§-Aminolaevulinic acid (§-ALA) is an omega amino acid which can be considered as an analogue of γ-aminobutyric acid (GABA). We have examined the effect of §-ALA on [³H]GABA uptake and release in the synaptosome fraction of rat cerebral cortex and report: (1) High concentrations of §-ALA (0.75-5 mM) stimulated [³H]GABA release very markedly, the stimulation with 1mM and 5mM-§-ALA exceeding the maximum obtainable with unlabelled GABA; (2) Low concentrations of §-ALA (0.1-0.5 mM) produced little stimulation of [³H]GABA efflux, less than that produced by similar concentrations of unlabelled GABA; (3) 0.1 mM-§-ALA reduced the stimulation of [³H]GABA efflux elicited by 55 mM-K⁺ and the combination of 1 mM-§-ALA and 55mM-K⁺ produced a lower stimulation of efflux than 1 mM-§-ALA alone; (4) §-ALA inhibits [³H]GABA uptake in a linearly competitive fashion and inhibition is maximal at 0.5 mM-§-ALA. These results are discussed in relation to the neuronal high affinity GABA transport mechanism and inhibition of the synaptosomal Na⁺ and K⁺ -dependent ATPase. It is also postulated that §-ALA increases the chloride conductance of the synaptosomal membrane, possibly by acting on presynaptic GABA receptors.